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麻醉诱导的意识丧失会破坏初级皮层以外的听觉反应。

Anesthesia-induced loss of consciousness disrupts auditory responses beyond primary cortex.

机构信息

Department of Physiology & Pharmacology, Sackler School of Medicine, Tel Aviv University, Tel Aviv 6997801, Israel.

Department of Anesthesiology and Critical Care Medicine, Hadassah-Hebrew University Medical Center, Jerusalem 91120, Israel.

出版信息

Proc Natl Acad Sci U S A. 2020 May 26;117(21):11770-11780. doi: 10.1073/pnas.1917251117. Epub 2020 May 12.

DOI:10.1073/pnas.1917251117
PMID:32398367
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7261054/
Abstract

Despite its ubiquitous use in medicine, and extensive knowledge of its molecular and cellular effects, how anesthesia induces loss of consciousness (LOC) and affects sensory processing remains poorly understood. Specifically, it is unclear whether anesthesia primarily disrupts thalamocortical relay or intercortical signaling. Here we recorded intracranial electroencephalogram (iEEG), local field potentials (LFPs), and single-unit activity in patients during wakefulness and light anesthesia. Propofol infusion was gradually increased while auditory stimuli were presented and patients responded to a target stimulus until they became unresponsive. We found widespread iEEG responses in association cortices during wakefulness, which were attenuated and restricted to auditory regions upon LOC. Neuronal spiking and LFP responses in primary auditory cortex (PAC) persisted after LOC, while responses in higher-order auditory regions were variable, with neuronal spiking largely attenuated. Gamma power induced by word stimuli increased after LOC while its frequency profile slowed, thus differing from local spiking activity. In summary, anesthesia-induced LOC disrupts auditory processing in association cortices while relatively sparing responses in PAC, opening new avenues for future research into mechanisms of LOC and the design of anesthetic monitoring devices.

摘要

尽管麻醉在医学中被广泛应用,并且人们对其分子和细胞作用有了广泛的了解,但麻醉如何引起意识丧失(LOC)以及影响感觉处理仍然知之甚少。具体来说,目前尚不清楚麻醉主要是破坏丘脑皮质中继还是皮质间信号传递。在这里,我们在患者清醒和轻度麻醉期间记录了颅内脑电图(iEEG)、局部场电位(LFPs)和单神经元活动。在给予异丙酚输注的同时呈现听觉刺激,当患者对目标刺激做出反应直到失去反应。我们发现,在清醒状态下,在联合皮质中会出现广泛的 iEEG 反应,而在 LOC 时,这些反应会减弱并仅限于听觉区域。初级听觉皮层(PAC)中的神经元放电和 LFP 反应在 LOC 后仍然存在,而在更高阶的听觉区域的反应则各不相同,神经元放电大部分被减弱。词刺激诱导的γ功率在 LOC 后增加,而其频率谱变慢,因此与局部放电活动不同。总之,麻醉诱导的 LOC 会破坏联合皮质中的听觉处理,而 PAC 中的反应相对保留,为未来研究 LOC 机制和麻醉监测设备的设计开辟了新的途径。

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